A fluid flow control valve includes a valve body with a fluid flow lumen therethrough and a valve member located within the fluid flow lumen. At least one of the valve body and the valve member is resilient and respectively sized for movement between a normally closed position in which the valve member and a fluid lumen surface are in sufficient annular contact to block fluid flow through the fluid flow lumen and an open position in which at least one of the valve body and the valve member flexes to a spaced apart position that allows the fluid flow between the valve body and the valve member. Downstream fluid pressure may contact the valve body to enhance sealing. A fluid absorbent member may also be employed with the valve body. Flow control devices, such as medical fluid injection devices, and methods may employ the valve.

A fluid flow control valve includes a valve body with a fluid flow lumen therethrough and a valve member located within the fluid flow lumen. At least one of the valve body and valve member is resilient and respectively sized for movement between a normally closed position in which the valve member and a fluid lumen surface are in sufficient annular contact to block fluid flow through the fluid flow lumen and an open position in which at least one of the valve body and valve member flexes to a spaced apart position that allows fluid flow between them. Downstream fluid pressure may contact the valve body to enhance sealing. A fluid absorbent member may also be employed with the valve body. Flow control devices, such as medical fluid injection devices, and methods may employ this valve.

A fluid flow control valve includes a valve body with a fluid flow lumen therethrough and a valve member located within the fluid flow lumen. At least one of the valve body and valve member is resilient and respectively sized for movement between a normally closed position in which the valve member and a fluid lumen surface are in sufficient annular contact to block fluid flow through the fluid flow lumen and an open position in which at least one of the valve body and valve member flexes to a spaced apart position that allows fluid flow between them. Downstream fluid pressure may contact the valve body to enhance sealing. A fluid absorbent member may also be employed with the valve body. Flow control devices, such as medical fluid injection devices, and methods may employ this valve.

A device for the administration of liquids, drugs,. or nutrients to a patient includes a deformable bag for containing a liquid, a drug, or a nutrient to be administered, in fluid communication, through a tube, with a needle, or a tube, or a catheter that can be inserted in a patient.

The device includes an expandable air container whose expansion generates the compression of the deformable bag, a compressed air generation component adapted to introduce air into the expandable air container, a first proportional valve associated with the tube. The valve is configured to regulate the flow of the liquid, drug, or nutrient from the deformable bag generated by the compression of the bag due to expansion of the expandable air container, and a control unit connected to the valve configured to control operation of the valve according to parameters of administration of the liquid, drug, or nutrient to the patient.

A liquid delivery device contains a liquid saturated with a gas in a pressure chamber pressurized to a selected amount. The liquid delivery device may be removed from the pressure chamber to deliver the saturated liquid to a volume.

Disclosed herein is an apparatus for cooling a sterile liquid for use in cryotherapy, the apparatus comprising: a first chamber (202) adapted to receive a removable container (201) of sterile liquid and a fluid port for receiving a fluid for applying, in use, pressure to a received removable container (201); and a second chamber (203) comprising a cooler; wherein the first chamber (202) is arranged to be in thermal conductivity with the second chamber (203) such that, in use, the contents of the first chamber (202) are cooled by the cooler of the second chamber (203). Advantageously, embodiments provide a system, heat exchanger unit within the system and method for supplying a sterilised working fluid to a catheter system for cryotherapy, the working fluid being supplied at a desired and easily controllable temperature and flow rate.

A fluid infusion system includes an air pump connected to an accumulator tank to produce pressurized air that is stored in the accumulator tank. The system can include one or more fluid bag chambers wherein each fluid bag chamber includes an inflatable bladder positioned inside the fluid bag chamber to apply pressure on the fluid bag supported inside the chamber. The fluid bag can be connected by a tube set to deliver fluid from the fluid bag to a surgical tool at a surgical site. The fluid can, for example, be irrigation fluid or distention fluid. The system can include a controller connected to the pump to control the pump to produce the pressurized air and an adjustable pressure regulator can be connected between the accumulator tank and the inflatable bladder to control the pressure of air delivered to the inflatable bladder and the pressure that the fluid is delivered to the surgical tool. A pressure sensor can be connected between the adjustable pressure regulator and the inflatable bladder to measure the air pressure delivered to the inflatable bladder and send the air pressure measurements to the controller. The controller can configure the system display to show the air pressure measured by the pressure sensor.

A method for reducing small volume subcutaneous leaks of therapeutic fluids during procedures to refill an implantable medical device includes reducing pressure in a reservoir of the device. A refill needle can be percutaneously inserted into a fill port in communication with the reservoir and therapeutic fluid can be delivered through the needle into the reservoir. Reduced reservoir pressure upon withdrawal of the refill needle from the port can result in reduced subcutaneous leakage of the therapeutic fluid.

The invention relates to an autoinjector (100) comprising a housing (170) which is gas-tight to the outside, a fluid reservoir (110) with a fluid, wherein the fluid reservoir (110) comprises a flexible material, a container (140) which comprises at least a first section which is configured to contain a first substance which comprises gas or which can be converted into gas, wherein the container (140) is configured to assume two different states, a first state in which the first section is sealed so that the at least first substance is contained in the first section, a second state in which the at least first substance is released from the first section into the housing (170) causing an increase of gas pressure within the housing (170) which acts on the fluid reservoir (110) causing the fluid inside the fluid reservoir (110) to move through the fluid reservoir (110) towards and through an outlet (230) of the autoinjector (100).

A medicament delivery device for delivering a liquid medicament comprising: a rigid casing containing a deformable medicament container, the deformable medicament container arranged to contain the liquid medicament; a pressurized gas cartridge connected to the rigid casing via a gas valve; wherein the gas valve is releasable to allow gas flow into the rigid casing to cause an increase in gas pressure in the rigid casing so as to compress the deformable medicament container to displace the liquid medicament.